JAJSIR5C October 2019 – October 2023 TPS65313-Q1
PRODUCTION DATA
A new WD Q&A sequence run starts after one of the following:
In the WD Multi-Answer Mode the WD Q&A sequence run starts with RESPONSE WINDOW 1 followed by RESEPONSE WINDOW 2 in WD Q&A multi-answer mode. The WD window duration times (tWD_RESP_WIN1 and tWD_RESP_WIN2) are configurable through the WDT_WIN1_CFG and WDT_WIN2_CFG configuration registers when the device is in the DIAGNOSTIC state. Use Equation 2 to calculate the time period for RESPONSE WINDOW 1. Use Equation 3 to calculate the time period for RESPONSE WINDOW 2.
where the WD_RW1C[7:0] bits are located in the WDT_WIN1_CFG SPI register.
where the WD_RW2C[4:0] bits are located in the WDT_WIN2_CFG SPI register.
In the WD Q&A Single-Answer Mode the WD &A sequence run starts with a CLOSE WINDOW followed by an OPEN WINDOW in WD Q&A single-answer mode. The WD window duration times (tWD_CLOSE_WIN and tWD_OPEN_WIN) are configurable through the WDT_WIN1_CFG and WDT_WIN2_CFG configuration registers when the device is in the DIAGNOSTIC state. Use Equation 4 to calculate the time period for CLOSE WINDOW. Use Equation 5 to calculate the time period for OPEN WINDOW.
where the WD_CWC[7:0] bits are located in the WDT_WIN1_CFG SPI register.
where the WD_OWC[4:0] bits are located in the WDT_WIN2_CFG SPI register.
The WD function uses the internal 8-MHz (with ± 5% accuracy) and the SYSCLK clock as a time reference for creating the 0.55-ms time-step resolution. The SPI SW_LOCK command can be used to lock write access to the WDT_WIN1_CFG and WDT_WIN2_CFG registers.